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Electrical Conductors!
yes, passage of electricity depends on the structure of material at atomic level since electricity is nothing but flow of charge, any material which acquires charge(electrons or ions) on it, can allow passage of electricity. mercury being a metal, contains free electrons which is responsible for passage of electricity
(coulomb) A quantity of electric charge. Passage of 1 coulomb per second along a wire is called 1 amp (ampere) of electric current.
An electric furnace in which the heat is developed by the passage of current through a suitable internal resistance that may be the charge itself, a resistor embedded in the charge, or a resistor surrounding the charge.
The strength of the electrostatic force depends on the electric charge. If you have a block of cobalt - or of just about any other material for that matter - you can put a positive charge, a negative charge, or no charge on it; and the charge can be large or small.
Electric Current.
Electrical Conductors!
By losing electrons.
yes, passage of electricity depends on the structure of material at atomic level since electricity is nothing but flow of charge, any material which acquires charge(electrons or ions) on it, can allow passage of electricity. mercury being a metal, contains free electrons which is responsible for passage of electricity
Copper is very good conductor of electric charge. That is why it is invariably used in the electric motors.
(coulomb) A quantity of electric charge. Passage of 1 coulomb per second along a wire is called 1 amp (ampere) of electric current.
An electric furnace in which the heat is developed by the passage of current through a suitable internal resistance that may be the charge itself, a resistor embedded in the charge, or a resistor surrounding the charge.
Metals.
Conservation of charge means that a net electric charge is not created or destroyed. This type of charge is instead transferred from one specific material to another.
That would be known as a metal.
The kinds of electric charge are positive charge and negative charge
The strength of the electrostatic force depends on the electric charge. If you have a block of cobalt - or of just about any other material for that matter - you can put a positive charge, a negative charge, or no charge on it; and the charge can be large or small.